2015-03-03T20:27:43Z2008 Annual Report for the Wilma H. Schiermeier Olentangy River Wetland Research Parkhttp://hdl.handle.net/1811/36389
2008 Annual Report for the Wilma H. Schiermeier Olentangy River Wetland Research Park
Mitsch, William J.
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2009-02-24T17:49:43ZMitsch, William J.2007 Annual Report for the Wilma H. Schiermeier Olentangy River Wetland Research Parkhttp://hdl.handle.net/1811/31934
2007 Annual Report for the Wilma H. Schiermeier Olentangy River Wetland Research Park
Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2008-04-30T15:20:17ZMitsch, William J.2006 Annual Report for the Wilma H. Schiermeier Olentangy River Wetland Research Parkhttp://hdl.handle.net/1811/29387
2006 Annual Report for the Wilma H. Schiermeier Olentangy River Wetland Research Park
Mitsch, William J.
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2007-09-30T00:00:00ZMitsch, William J.Table of Contents, Schiermeier Olentangy River Wetland Research Park Annual Report, 2005http://hdl.handle.net/1811/24114
Table of Contents, Schiermeier Olentangy River Wetland Research Park Annual Report, 2005
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2006-10-02T18:57:13ZAcknowledgements, Schiermeier Olentangy River Wetland Research Park Annual Report, 2005http://hdl.handle.net/1811/24113
Acknowledgements, Schiermeier Olentangy River Wetland Research Park Annual Report, 2005
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2006-10-02T18:51:23ZWilma H. Schiermeier Olentangy River Wetland Research Park Annual Report 2005, Inside Front Coverhttp://hdl.handle.net/1811/24112
Wilma H. Schiermeier Olentangy River Wetland Research Park Annual Report 2005, Inside Front Cover
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2006-10-02T18:47:31ZWilma H. Schiermeier Olentangy River Wetland Research Park at The Ohio State University Annual Report 2005http://hdl.handle.net/1811/24111
Wilma H. Schiermeier Olentangy River Wetland Research Park at The Ohio State University Annual Report 2005
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2006-10-02T18:45:59ZProgress Report 2005: Appendixhttp://hdl.handle.net/1811/24110
Progress Report 2005: Appendix
Mitsch, William J.
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2006-10-02T18:44:32ZMitsch, William J.Simulating restoration of the Iraqi Mesopotamian marshlandhttp://hdl.handle.net/1811/24109
Simulating restoration of the Iraqi Mesopotamian marshland
Mitsch, William J.; Zhang, Li; Jørgensen, Sven E.; Tuttle, Cassandra L.
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2006-10-02T18:36:28ZMitsch, William J.Zhang, LiJørgensen, Sven E.Tuttle, Cassandra L.Designing a regeneration zone for the Cuyahoga River Valley: Ecological restorationhttp://hdl.handle.net/1811/24108
Designing a regeneration zone for the Cuyahoga River Valley: Ecological restoration
Mitsch, William J.; Zhang, Li; Nahlik, Amanda M.
The potential for ecological restoration of the lower
Cuyahoga River is presented as part of a planning for a Regenerative Development Zone (RDZ) in industrial/ commercial land near downtown Cleveland. First, hydrology, water quality, and fish and invertebrate data and composite biological indicators are presented for this lower reach of the Cuyahoga River. While there are some signs of recent
improvement in river fish richness, the biological indicators generally still indicate poor aquatic habitat. Channel dredging, large ship use, and rigid shoreline pilings limit the diversity of habitat and ensure continual resuspension of chemically contaminated river sediments. We present three
general alternatives for restoration of the riverine system. One is the creation of 70 acres of oxbow wetlands on the floodplain terrace with seasonal hydrologic connections to the river but otherwise with connections to upland urban runoff. A second alternative is for the restoration of a 0.5-mile reach of a tributary stream, Kingsbury Run, to the Cuyahoga River, thus avoiding some of the problems
associated with restoration of the Cuyahoga River itself while providing a significant habitat connected to the river. A third alternative considered is 5.6 miles of “pocket wetlands” along the Cuyahoga River riparian edge itself. Costs and ecological benefits of each of these options are provided. Cessation of river channel dredging and improvement in water quality in the upstream river are vital to any effective
restoration techniques in the lower Cuyahoga River. Data on costs of a detailed study of the lower Cuyahoga River and of demonstration projects that would be needed as the next step are also provided.
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2006-10-02T18:33:45ZMitsch, William J.Zhang, LiNahlik, Amanda M.Tropical treatment wetlands dominated by free-floating macrophytes for water quality improvement in Costa Ricahttp://hdl.handle.net/1811/24107
Tropical treatment wetlands dominated by free-floating macrophytes for water quality improvement in Costa Rica
Nahlik, Amanda M.; Mitsch, William J.
Five tropical treatment wetlands dominated by floating aquatic plants and constructed to deal with a variety of wastewaters were compared for their effectiveness in treating organic matter and nutrients in the Parismina River Basin in eastern Costa Rica. Wastewaters were from a dairy farm, a dairy processing plant, a banana paper plant, and a landfill. Four of the five wetland systems were effective in reducing nutrient levels of effluents before water was discharged into rivers. Ammonia levels in water entering most wetlands were considerably higher than ambient (i.e., riverine) levels; concentrations were reduced by as much as 92% in the wetlands and retained at a maximum rate of 166gNm−2 year−1. Nitrate nitrogen removal was variable, but occurred in low concentrations in the inflows (less than 1mgNL−1). Phosphate phosphorus was present in high levels but was effectively reduced through the wetlands (92 and 45% reductions through dairy farm wetlands, 83% reduction through banana paper wetlands, and 80% reduction through dairy processing wetlands). Retention of phosphate phosphorus ranged from 0.1 to 10.7gPm−2 year−1 in the treatment wetlands. Dissolved oxygen in the wetland outflows were ≤2mgL−1 in three of the sampled wetlands, most likely a result of the abundant free-floating macrophytes that sheltered the water from diffusion and shaded aquatic productivity. The efficacy of these created wetlands to treat effluents from different sources varied, and modified wetland
designs or active management may be necessary to improve water quality even further. Recommendations on tropical wetland design and management are presented, as are suggestions
for implementing this ecological engineering approach with farmers in Central America.
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2006-10-02T18:15:12ZNahlik, Amanda M.Mitsch, William J.Tree growth and hydrologic patterns in urban forested mitigation wetlandshttp://hdl.handle.net/1811/24106
Tree growth and hydrologic patterns in urban forested mitigation wetlands
Gamble, Debra L.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T20:14:56ZGamble, Debra L.Mitsch, William J.Hydroperiods of constructed and natural vernal pools in central Ohio and comparison of their depth and duration of inundationhttp://hdl.handle.net/1811/24105
Hydroperiods of constructed and natural vernal pools in central Ohio and comparison of their depth and duration of inundation
Gamble, Debra L.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T20:07:01ZGamble, Debra L.Mitsch, William J.Denitrification potential and organic matter as affected by vegetation community, wetland age, and plant introduction in created wetlandshttp://hdl.handle.net/1811/24104
Denitrification potential and organic matter as affected by vegetation community, wetland age, and plant introduction in created wetlands
Hernandez, Maria E.; Mitsch, William J.
Denitrification potential and organic matter in soils were
compared in three different vegetation communities—
emergent macrophtye, open water, and forested edge—in
two ten-year old created riverine wetlands. Organic matter
(OM), cold water extractable organic matter (CWEOM),
anaerobic mineralizable carbon (AnMC) and denitrification
potential (DP) varied significantly (P<0.05) among vegetation communities. The surface (0-9 cm) soils in
the emergent macrophyte community showed highest DP
(0.07 ± 0.01 mg N h-1 Kkg-1), OM (84.90 ± 5.60 g kg-1), CWEOM (1.12 ± 0.20 g kg-1) and AnMC (1.50 ± 0.10 mg C h-1 Kkg-1). In the deeper layer (9-18 cm), DP and CWEOM (0.04 ± 0.01 mg N h-1 Kkg-1 and 1.13 ± 0.20 g kg-1) were significantly higher in the open water community than in the emergent macrophyte, and the forested edge communities. Plant introduction did not affect denitrification potential or organic matter content and characteristics. After ten years of wetland development, mean DP increased 25 fold in the surface layer (from 0.002 to 0.053 mg N h-1 Kkg-1) and 15 fold in the deeper layer (from 0.001 to 0.015 mg N h-1 Kkg-1). Organic matter content more than doubled
10 years after the wetlands were created to 90.80 ± 19.22
g kg-1 in the upper layer and increased 38% in the lower
layer to 46.93 ± 3.85 g kg-1. In the surface layer, CWEOM
and HWEOM increased 2.5 and 2.7 times respectively
from 1993 (pre-wetland conditions) to 2004; in the 9-18
cm layer they increased 1.25 and 3 times, respectively.
AnMC increased 4 times in the 0-9 cm layer but it did not
increase in the 9-18 cm layer. Humic acids were the most
abundant form of organic matter in 2004 and 1993 samples. Significant (P<0.05) positive relationships between DP and OM, CWEOM and AnMC were found in the surface layer; in the 9-18 cm layer, significant positive relationships were found between DP and CWEOM and AnMC.
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2006-09-29T20:00:59ZHernandez, Maria E.Mitsch, William J.Methane and carbon dioxide fluxes in wetland mesocosms:Relationships to hydrology and soilshttp://hdl.handle.net/1811/24103
Methane and carbon dioxide fluxes in wetland mesocosms:Relationships to hydrology and soils
Altor, Anne E.; Mitsch, William J.
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2006-09-29T19:49:56ZAltor, Anne E.Mitsch, William J.Soil characteristics in a bottomland hardwood forest five years after hydrologic restorationhttp://hdl.handle.net/1811/24102
Soil characteristics in a bottomland hardwood forest five years after hydrologic restoration
Beekman, Christopher; Mitsch, William J.
The hydrology of the bottomland hardwood forest in
Central Ohio was restored in the spring of 2000 by the
creation of four breaches in the protective levee along
the Olentangy River. A 2005 study was conducted to
characterize water content, bulk density, soil color, and total organic content of soils near two of the breaches in relation to elevation, and to compare to previously collected pre and post hydrologic restoration studies. The percentage of hydric soils in the floodplain study areas was 60%, comparable to data collected in 2003. Samples collected in upland areas of higher elevation displayed lower organic content and higher chroma values consistent with areas receiving minimal flooding and non-hydric conditions. Samples collected at the northern breach demonstrated soil characteristics consistent with more frequent flooding than those of the southernmost breach. Average total organic matter content for this area was 9.39 ± 1.77 %, compared to the southern breach average of 6.13 ± 0.53 %. This difference was attributed to variation in flooding patterns between the northern and southern sections of the forest.
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2006-09-29T19:44:38ZBeekman, ChristopherMitsch, William J.The influence of hydrologic restoration on the productivity of a bottomland forest in central Ohiohttp://hdl.handle.net/1811/24101
The influence of hydrologic restoration on the productivity of a bottomland forest in central Ohio
Anderson, Christopher J.; Mitsch, William J.
Change in forest productivity in response to hydrologic
restoration was evaluated at a 5.2-ha bottomland hardwood forest in central Ohio. In June 2000, the bottomland forest was restored to approximate natural flooding by cutting three breeches in an artificial levee constructed between the river and the forest (north section) and a fourth breech along the natural river bank to augment flooding at the south section. Total aboveground net primary productivity (ANPP) was calculated for the two sections of the forest using estimated forest litterfall and wood production. No
significant difference in mean ANPP for the north section
(807 ± 86 g m-2 yr-1) and the south section (869 ± 56 g m-2 yr-1) was detected; however the north section was substantially more productivity than a previous ANPP estimate conducted before restoration. A significant positive relationship was detected between ANPP and the number of days flooded during the year (October 2003 - September 2004) in each plot. Forest ANPP and wood production were also significantly related to total tree basal area and topographic variability. Tree ring-analysis was used to compare mean basal area increment (BAI) growth 10 years (1991-2000) before the restoration to the 4 years (2001-2004) after the restoration. No immediate shifts in BAI were detected; however based
on prevailing trends before and after restoration, canopy trees in the south section showed a noteworthy increase in BAI during 2003 and 2004. This shift in the south section was primarily due to the prevalence of boxelder (Acer negundo L.), the dominant species in this section. Evaluating the 14-yr series of BAI for trees in the bottomland, a significant relationship was detected between the total number of days of high-flood conditions (>154 m3 sec-1) and mean BAI (cm2
yr-1) based on a two-year flooding history.
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2006-09-29T19:35:57ZAnderson, Christopher J.Mitsch, William J.Sediment chemistry in a hydrologically restored bottomland hardwood forest in Midwestern UShttp://hdl.handle.net/1811/24100
Sediment chemistry in a hydrologically restored bottomland hardwood forest in Midwestern US
Zhang, Li; Mitsch, William J.; Bouchard, Virginie; Hossler, Katie
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2006-09-29T19:25:30ZZhang, LiMitsch, William J.Bouchard, VirginieHossler, KatieMonitoring of off-site wetland mitigation at the Olentangy River Wetland Research Park for Spring-Sandusky Interchange—2005http://hdl.handle.net/1811/24099
Monitoring of off-site wetland mitigation at the Olentangy River Wetland Research Park for Spring-Sandusky Interchange—2005
Mitsch, William J.; Zhang, Li
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2006-09-29T19:20:34ZMitsch, William J.Zhang, LiSpatial distribution of soil nutrients in a created riparian wetlandhttp://hdl.handle.net/1811/24098
Spatial distribution of soil nutrients in a created riparian wetland
Epp, Kathryn; Mitsch, William J.
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2006-09-29T19:15:12ZEpp, KathrynMitsch, William J.The effect of removing hydrologic pulsing on a river-diversion riparian wetlandhttp://hdl.handle.net/1811/24097
The effect of removing hydrologic pulsing on a river-diversion riparian wetland
Fink, Daniel F.; Mitsch, William J.
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2006-09-29T19:10:14ZFink, Daniel F.Mitsch, William J.Analysis of Phragmites australis haplotypes at the ORWRP based on morphological characteristicshttp://hdl.handle.net/1811/24096
Analysis of Phragmites australis haplotypes at the ORWRP based on morphological characteristics
Fink, Daniel F.; Zhang, Li
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T19:02:42ZFink, Daniel F.Zhang, LiFish populations in planted and naturally colonized wetlands (fall 2005)http://hdl.handle.net/1811/24095
Fish populations in planted and naturally colonized wetlands (fall 2005)
Brown, Justin; Loper, Kyle; Mitsch, William J.
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2006-09-29T18:58:35ZBrown, JustinLoper, KyleMitsch, William J.Macroinvertebrate diversity and abundance in two created wetlands in Ohiohttp://hdl.handle.net/1811/24094
Macroinvertebrate diversity and abundance in two created wetlands in Ohio
Anemaet, Evelyn R.; Taylor, Jessica; Mitsch, William J.
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2006-09-29T18:53:04ZAnemaet, Evelyn R.Taylor, JessicaMitsch, William J.Net primary productivity of macrophyte communities in the experimental marshes after twelve growing seasonshttp://hdl.handle.net/1811/24093
Net primary productivity of macrophyte communities in the experimental marshes after twelve growing seasons
Mitsch, William J.; Anderson, Chris J.; Hernandez, Maria E.; Zhang, Li
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2006-09-29T18:46:08ZMitsch, William J.Anderson, Chris J.Hernandez, Maria E.Zhang, LiPlant community development after twelve growing seasons in two experimental wetland basinshttp://hdl.handle.net/1811/24092
Plant community development after twelve growing seasons in two experimental wetland basins
Mitsch, William J.; Zhang, Li; Mauk, Rachel
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2006-09-29T18:38:11ZMitsch, William J.Zhang, LiMauk, RachelAquatic metabolism as an indicator of the ecological effects of hydrologic pulsing in flow-through wetlandshttp://hdl.handle.net/1811/24091
Aquatic metabolism as an indicator of the ecological effects of hydrologic pulsing in flow-through wetlands
Tuttle, Cassandra L.; Mitsch, William J.
Water column metabolism is a major component in the
functioning of wetland ecosystems and can be used as an
indicator of ecosystem health. The effect of hydrologic
pulsing on water column metabolism was studied with
two yearʼs field data and a validated model for two 1-ha
created riparian wetlands at the Olentangy River Wetland
Research Park at the Ohio State University, in Columbus,
OH, USA. Aquatic gross primary productivity (GPP) was
measured during hydrologic pulses the first week of April,
May and June of 2004 and compared to GPP during steady
flow-conditions in April, May and June 2005. Pulses reduced diurnal variation of water temperature, pH and dissolved oxygen (DO), and negatively affected GPP rates. Mean GPP measured during hydrologic flood pulses was 5.13 ± 0.3 kcal m-2 d-1, which was significantly lower than that measured for comparable months with steady-flow hydrology (11.4 ±0.7 kcal m-2 d-1). Solar corrected productivity values of 0.08 ± 0.01% of solar energy during pulses and 0.2 ± 0.02% for steady-flow conditions were also significantly different. Different hyperbolic curves of optimum productivity with water temperature were seen for pulsing and steady-flow conditions. A simulation model with hydrology, metabolism, and DO sub models was was calibrated with 2005 steadyflow year data and validated with 2004 pulse year data. Results from both the field study and model simulations suggest that there was a threshold hydraulic inflow rate between 30 and 50 cm d-1 where aquatic metabolism became negatively affected due to direct and indirect effects of the hydrologic pulse.
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2006-09-29T18:29:39ZTuttle, Cassandra L.Mitsch, William J.Aquatic vegetation biomass in two created riparian wetlandshttp://hdl.handle.net/1811/24090
Aquatic vegetation biomass in two created riparian wetlands
Tuttle, Cassandra L.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T18:17:11ZTuttle, Cassandra L.Mitsch, William J.Denitrification in created riverine wetlands: Influence of hydrology and seasonhttp://hdl.handle.net/1811/24089
Denitrification in created riverine wetlands: Influence of hydrology and season
Hernandez, Maria E.; Mitsch, William J.
Seasonal denitrification rates in two created riparian
marshes were investigated under pulsing and steadywater
flow conditions. Denitrification was measured using the in situ acetylene block technique. Measurements were performed in a transverse gradient with different hydrologic conditions: low marsh and open water zones
which were permanently flooded, high marsh zones which
had permanently saturated soils but standing water during pulses, and edge zones which were normally dry with standing water during flood pulses. Denitrification in all plots was significantly correlated with soil temperature and was significantly correlated with the nitrate concentration in the inflow surface water in the growing season. Late spring denitrification rates in the high marsh zone were significantly higher under flood pulsing (778 ± 92 mg N m-2 h-1) than under steady flow (328 ± 63 mg N m-2 h-1). In the low marsh and edge zones, flood pulses did not affect denitrification. N2O/N2 ratios were higher in intermittently flooded (high marsh and edge) zones than in permanently flooded (low marsh) zones and highest in the cold seasons. Highest mean denitrification rates were observed in the low marsh zone (800 ± 102 mg N m-2 h-1) and they were significantly higher (P < 0.05) than in the high marsh (458 ± 87 mg N m-2 h-1) and edge (315 ± 40 mg N m-2 h-1) zones but not significantly different from the open water zone (584
± 101 mg N m-2 h-1). Denitrification in high marsh zones was not significantly different than in the open water and edge zones. In permanently flooded areas, denitrification rates were significantly higher near the wetland inflow than near the outflow. Overall, denitrification in the experimental wetlands was 147 ± 54 kg N yr-1 during pulsing year and 112 ± 41 kg N yr-1 during steady-flow. Denitrification appeared to be nitrogen limited in low marsh, high marsh and edge
plots, but both carbon and nitrogen limited in open water.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T18:06:32ZHernandez, Maria E.Mitsch, William J.The effects of river pulsing on sedimentation in created riparian wetlandshttp://hdl.handle.net/1811/24088
The effects of river pulsing on sedimentation in created riparian wetlands
Nahlik, Amanda M.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T17:46:49ZNahlik, Amanda M.Mitsch, William J.Biogeochemical patterns of created riparian wetlands: Twelfth-year results (2005)http://hdl.handle.net/1811/24087
Biogeochemical patterns of created riparian wetlands: Twelfth-year results (2005)
Mitsch, William J.; Zhang, Li; Hernandez, Maria E.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T17:26:24ZMitsch, William J.Zhang, LiHernandez, Maria E.Water budgets of the two Olentangy River experimental wetlands in 2005http://hdl.handle.net/1811/24086
Water budgets of the two Olentangy River experimental wetlands in 2005
Zhang, Li; Mitsch, William J.; Tuttle, Cassandra L.; Fink, Daniel F.
The University Archives has determined that this item is of continuing value to OSU's history.
2006-09-29T17:17:51ZZhang, LiMitsch, William J.Tuttle, Cassandra L.Fink, Daniel F.Wilma H. Schiermeier Olentangy River Wetland Research Park: Progress Report for 2005http://hdl.handle.net/1811/24085
Wilma H. Schiermeier Olentangy River Wetland Research Park: Progress Report for 2005
Mitsch, William J.
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2006-09-29T17:09:57ZMitsch, William J.2004 Progress Report Appendixhttp://hdl.handle.net/1811/5913
2004 Progress Report Appendix
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2005-12-29T21:33:24ZAn economic research agenda for valuing the ORWRP wetlandshttp://hdl.handle.net/1811/5912
An economic research agenda for valuing the ORWRP wetlands
Tenwalde, Tracy J.; Hitzhusen, Fred J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T21:25:39ZTenwalde, Tracy J.Hitzhusen, Fred J.Magnoliophyta Seed (Species) Diversity in Riparian Soils along the Olentangy River at ORWRPhttp://hdl.handle.net/1811/5911
Magnoliophyta Seed (Species) Diversity in Riparian Soils along the Olentangy River at ORWRP
Deal, Robert; Sullivan, Jennifer L.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T21:15:59ZDeal, RobertSullivan, Jennifer L.Effects of hydrological restoration on litterfall in a riparian bottomland forest in central Ohio: Preliminary resultshttp://hdl.handle.net/1811/5910
Effects of hydrological restoration on litterfall in a riparian bottomland forest in central Ohio: Preliminary results
Anderson, Christopher J.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T21:12:57ZAnderson, Christopher J.Mitsch, William J.Nutrient influx with sedimentation in a hydrologically restored bottomland hardwood forest in Midwestern USAhttp://hdl.handle.net/1811/5909
Nutrient influx with sedimentation in a hydrologically restored bottomland hardwood forest in Midwestern USA
Zhang, Li; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T21:10:01ZZhang, LiMitsch, William J.Wetland monitoring of the Olentangy River Wetland bottomland hardwood forest ( Year 4- 2004)http://hdl.handle.net/1811/5908
Wetland monitoring of the Olentangy River Wetland bottomland hardwood forest ( Year 4- 2004)
Mitsch, William J.; Zhang, Li
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T21:06:11ZMitsch, William J.Zhang, LiHydrology, biogeochemistry, and plant community development in a created river diversion oxbow wetland in the Ohio River basin, USAhttp://hdl.handle.net/1811/5907
Hydrology, biogeochemistry, and plant community development in a created river diversion oxbow wetland in the Ohio River basin, USA
Fink, Daniel F.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T21:02:59ZFink, Daniel F.Mitsch, William J.Selective reduction of coliforms in constructed wetlandshttp://hdl.handle.net/1811/5906
Selective reduction of coliforms in constructed wetlands
Uldrich, Emily; Phipps, Richard; Hinds, Terry D. Jr.; Burns, Eugene H. Jr.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:59:13ZUldrich, EmilyPhipps, RichardHinds, Terry D. Jr.Burns, Eugene H. Jr.Atrazine biodegradation potential in a created wetlandhttp://hdl.handle.net/1811/5905
Atrazine biodegradation potential in a created wetland
Douglass, James F.; Tuovinen, Olli H.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:55:41ZDouglass, James F.Tuovinen, Olli H.Fish and amphibian abundance in created riparian marshes with pulsing hydrologyhttp://hdl.handle.net/1811/5904
Fish and amphibian abundance in created riparian marshes with pulsing hydrology
Fink, Daniel F.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:50:11ZFink, Daniel F.Mitsch, William J.Macroinvertebrate abundance and diversity in two ten-year-old created wetlandshttp://hdl.handle.net/1811/5903
Macroinvertebrate abundance and diversity in two ten-year-old created wetlands
Gamble, Debra L.; Washburn, Scott W.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:47:52ZGamble, Debra L.Washburn, Scott W.Mitsch, William J.Methane flux from created marshes: Effects of intermittent vs. continuous inundation and emergent macrophyteshttp://hdl.handle.net/1811/5902
Methane flux from created marshes: Effects of intermittent vs. continuous inundation and emergent macrophytes
Altor, Anne E.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:45:54ZAltor, Anne E.Mitsch, William J.Use of near infrared reflectance spectroscopy (NIR) to determine total carbon and total nitrogen in wetland soilshttp://hdl.handle.net/1811/5901
Use of near infrared reflectance spectroscopy (NIR) to determine total carbon and total nitrogen in wetland soils
Hernandez, Maria E.; Pausch, Jerry; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:41:37ZHernandez, Maria E.Pausch, JerryMitsch, William J.Nitrous oxide fluxes and denitrification in created wetlands receiving hydrological pulseshttp://hdl.handle.net/1811/5900
Nitrous oxide fluxes and denitrification in created wetlands receiving hydrological pulses
Hernandez, Maria E.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:38:04ZHernandez, Maria E.Mitsch, William J.Estimation and comparison of gross primary productivity patterns in created riparian wetlandshttp://hdl.handle.net/1811/5899
Estimation and comparison of gross primary productivity patterns in created riparian wetlands
Smith, David A.; Allen, Gerald R.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:37:36ZSmith, David A.Allen, Gerald R.Mitsch, William J.Physiochemical soil conditions at the Olentangy River experimental wetlands in 2004http://hdl.handle.net/1811/5898
Physiochemical soil conditions at the Olentangy River experimental wetlands in 2004
Anderson, Christopher J.; Mitsch, William J.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:37:16ZAnderson, Christopher J.Mitsch, William J.Ontogeny of hydric soils in created wetlandshttp://hdl.handle.net/1811/5897
Ontogeny of hydric soils in created wetlands
Gascho-Landis, Andrew M.
The University Archives has determined that this item is of continuing value to OSU's history.
2005-12-29T20:34:57ZGascho-Landis, Andrew M.